CN101509088B - High-strength, high-ductility rare earth aluminum alloy material and method of producing the same - Google Patents
High-strength, high-ductility rare earth aluminum alloy material and method of producing the same Download PDFInfo
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Abstract
The invention relates to a rare earth aluminium alloy material with high strength and high toughness and the preparation method thereof, belonging to the technical field of metal alloy and the preparation thereof. The invention is characterized in that the invention comprises Mg, Si, Fe, a rare earth compound additive and Al, with the weight percentages as follows: Mg: 0.50-0.60%; Si: 0.35-0.45%;Fe less than or equal to 0.35%; rare earth additive less than or equal to 0.065-0.2%; the margin being Al. The preparation method comprises charging and melting down the 6063 aluminum alloy furnace materials in accordance with the conventional methods, adjusting the furnace temperature, deairing, refining and purifying the melt and then adding Al-RE, Al-Sr and Al-Zr master alloys at the temperature between 720 DEG C and 760 DEG C and preserving heat for 30min-7h, then carrying out homogenization treatment on electromagnetic stirring components and detection, pouring and casting, finally carrying out homogenization treatment and subsequent quick cooling treatment, rapid heating before extrusion, extrusion and on-line quenching treatment as well as artificial aging treatment. The product section obtained from the invention has rapid extrusion and high mechanical property of the section and can improve the apparent mass of the section and increase the modification of oxide film density.
Description
Technical field
The present invention relates to high strength, high-ductility rare earth aluminum alloy material and preparation method thereof, belong to metal alloy and preparing technical field thereof.
Background technology
6063 aluminium alloy extrusions have become a kind of aluminium alloy material of construction that international and domestic application is popularized the most.In order to boost productivity, to reduce energy consumption, improve press workability, improving extruded section mechanical property and section bar chemical physics performance, international, domestic each Aluminum source mill has carried out the broad research of alloying process and processing technology.
Standard GB 3190 regulations 6063 al alloy components are Mg:0.45%-0.90%; Si 0.2%-0.6%; Fe≤0.35%.Obviously the alloying elements distribution space is very big, and alloying element value difference can be very big to the over-all properties influence of section bar, with the fluctuation that causes on the mechanical property, also makes to occur very big difference on surface treatment quality and the effect, also increased technique controlling difficulty simultaneously.6063 aluminum alloy Ts 5, the T6 attitude section bar tensile strength of standard GB/T5237.1 regulation are respectively 160MPa, 205MPa, and the strong mechanical performance of reality only can reach tensile strength 230MPa.
A kind of modification 6063 aluminium alloys that Chinese patent CN1456697A announces, tensile strength is up to 216MPa, and elongation is 17%; The mishmetal amount of adding is big, reach 0.11-0.2%, the limit of solubility about 0.05% that surpasses rare earth far away, this is difficult to make homogenization of composition in industrialization on as 15 tons, 25 tons big smelting furnace, very easily cause poly-partially, the effect of rare earth can not be given full play to, and it is low to cause press workability to worsen with the mechanical property of extruded product; Also easy simultaneously and add Ti, Zr fining agent generation chemical reaction, it is thick to cause aluminum substrate to organize, and both excellence effects all can not be given full play to.
Obviously, 6063 Mechanical Properties of Aluminum Alloys are low, have deficiency, do not satisfy the high load service requirements of structure; Be limited to material composition characteristics and technical matters characteristics simultaneously, also there is weak point, organize problems such as thick as easily having various impurity, thick needle-like iron containing compounds phase and aluminum substrate in the tissue, the homogenization of composition that influences alloy is handled the mechanical property raising problem of energy consumption problem, extrusion processing performance and extruded product, and 6063 aluminium alloys are carried out the master alloying design and the technical matters property improvement is necessary.
Add rare earth element in 6063 aluminium alloys, can significantly improve the mechanical property and chemistry, physicals of extrusion processing performance, extruded product, its effect is: (1) purifies dehydrogenation, removes the deleterious effect of hydrogen by the mode that produces rare earth hydride; (2) crystal grain thinning, producing the rare earth high melting compound becomes the nucleus core; (3) deleterious effect of removal iron forms rare-earth iron compound etc.; (4) be distributed in chemistry and the physicals of significantly improving extruded product on intracrystalline, the crystal boundary.Go into amount and need control properly but add rare earth, otherwise also can worsen above-mentioned effect and effect.
In 6063 aluminium alloys, add zirconium or titanium iso-metamorphism nucleator, these elements form high-temperature stable phase compound particle in alloy, refinement aluminum substrate tissue, suppress recrystallize, have and improve or improve press workability, make section bar after keeping extrusion processing after the thermal treatment fibrous tissue or tiny recrystallize mixed structure is arranged, significantly improve or improve the structural mechanical property of section bar.Certainly, should be specifically noted that these elements and alloy system matching design problem, also comprise the add-on design problem, particularly when titanium and rare earth element exist simultaneously, because of chemical reaction takes place, form thick compound, reduced the quantity of heterogeneous core, and the purpose that does not reach thinning microstructure and improve its over-all properties.
In 6063 aluminium alloys, add strontium element, the processing of going bad, make deleterious thick needle-like, bar-shaped or flaky β-FeAlSi phase, when casting, directly become alloy hot workability and the little mellow and full lumps α-FeAlSi phase of mechanical property influence, thereby avoid to eliminating the harmful effect of β-FeAlSi phase the high-temperature and the long-time energy consumption problem that is incubated that need homogenizing annealing to handle.
Facts have proved, 6063 aluminium alloy master alloying elements are optimized design, in 6063 aluminium alloys, add various additives such as rare earth, can improve its heterogeneous microstructure and composite technology performance, thereby reach the mechanical property and the chemical physics performance that improve its extrusion processing performance, shape product, and have considerable energy saving consumption reduction effect.But the effect of single adding rare earth, zirconium and strontium can not be taken all round properties into account, needs Synthetical Optimization, can satisfy every performance requriements.
Summary of the invention
The objective of the invention is in order to overcome problem or the deficiency that prior art exists, provide that a kind of extrusion speed is fast, section bar mechanical property height, can improve the section bar apparent mass and increase high strength, high-ductility rare earth aluminum alloy material of oxide film density and preparation method thereof.
High strength of the present invention, high-ductility rare earth aluminum alloy material, its component is percentage ratio by weight:
Mg:0.50%~0.60%; Si:0.35%~0.45%; Fe≤0.35%; Rare earth composite additive≤0.065%~0.2%; Surplus is Al;
The rare earth composite additive, its component is percentage ratio by weight:
RE:0.04%~0.1%; Sr:0.01%~0.05%; Zr:0.015~0.05%; The RE+Sr+Zr overall control exists: 0.065%~0.2%.
Wherein: rare earth RE is for being main content 85~90% with Ce, and La is auxilliary content 10~15%.
Preparation method of the present invention is:
(1) prepare: the rare earth composite additive is the method that adopts master alloy, i.e. AL-RE, AL-Sr and AL-Zr master alloy, other impurity element limits and press the GB/T8735 standard and carry out in the master alloy, as make, preparation or order ALSr
5Or ALSr
10, ALRE10, ALZr
4Deng master alloy;
(2) the adding sequential of master alloy: be in the industrialization smelting furnace, 6063 aluminium alloy furnace charges are sequentially added into and melt, adjust furnace temperature according to ordinary method, melt body degasification, removal of impurities and purifying treatment after, add three kinds of master alloys;
(3) temperature design of adding master alloy: master alloy adds temperature and is controlled between 720 ℃~760 ℃ soaking time 30min~7h;
(4) the induction stirring homogenization of composition is handled: with three kinds of master alloys, design of components relation by RE, Sr, Zr in the high strength of the invention described above, the high-ductility rare earth aluminum alloy material is calculated add-on, together from the charging bole input, opening the furnace bottom electromagnetic mixing apparatus simultaneously stirs, stirring is 30min~50min with soaking time, and the longest soaking time of Special Circumstances should be above 7 hours.Soaking time is taken a sample from stove after arriving, and carries out the quick composition analysis in stokehold, prepares cast;
(5) teeming temperature is controlled at 720 ℃~740 ℃, and casting temp is controlled at 700 ℃~710 ℃, adopts the hot top semicontinuous casting of same level technology;
(6) homogenizing thermal treatment and quick cooling process.The homogenizing thermal treatment process, 520 ℃ of-530 ℃ * 4-6h; The quick cooling process technology of coming out of the stove after homogenizing is handled, speed of cooling should be controlled at more than 150 ℃.According to the cooling power of quenchant, can adopt forced air cooling, hot water to quench or single cooling of cold-water quench or recombining process cooling.
(7) ingot blank rapid heating, extrusion processing and press quenching technology before the extruding.Ingot blank rapid heating technology before the extruding adopts electromagnetic induction heating technology, and Heating temperature is 470 ℃-500 ℃, and be 50-70min heat-up time; Extrusion process, extrusion billet temperature in are controlled at 460 ℃~490 ℃, and temperature out is controlled about 510 ℃~530 ℃, and extrusion speed is controlled at 12m/min-15m/min, can adopt the extrusion machine extruding more than 1000 tons.Press quenching technology, thin-wall section, air, wind speed 〉=5m/s, big air quantity cooling, speed of cooling will reach 300 ℃/min; The heavy wall section bar, spray quenching, speed of cooling will reach 300 ℃/min-500 ℃/min.
(8) T5 attitude aging treatment process is 190~205 ℃ * 2h, the Sweet natural gas heating.
The effect of invention
High strength of the present invention, high-ductility rare earth aluminum alloy material and preparation method thereof, one of technical characterstic are the starting material wide material sources, need not special process, can adopt existing national standard master alloy material; Two of technical characterstic is the scientific formula designs by micro alloying elements such as rare earth, strontium, zirconiums, and Aluminum is extensively that adopt, sophisticated industrialization control techniques-electromagnetic agitation method, the high recovery rate alloy that can obtain composition and do not have evenly, less scaling loss melts body, makes the adding method simple and direct controlled.
Adopt high strength of the present invention, high-ductility rare earth aluminum alloy material, the semicontinuous casting ingot blank of manufacturing has organizes tiny, uniform metallurgical tissue, and precipitated phase is evenly distributed, and does not have thick sheet, needle-like or bar-shaped β-FeAlSi phase; Significantly reduce the heat tracing temperature or shorten homogenizing processing soaking time, have the technical characterstic of low manufacturing cost, less energy-consumption.The characteristics such as section bar mechanical property height that significantly improved extrusion processing speed and made manufacturing.
(1) obtains semicontinuous ingot blank precipitated phase and be evenly distributed, do not have thick sheet, needle-like or bar-shaped β-FeAlSi phase, homogeneous microstructure, reach nearly 1 grade of grain fineness number, the nearly 2-3 level of the grain fineness number of unmodified processing;
(2) changing the heat tracing temperature into by 580 ℃ of original heat tracing temperature is 520 ℃-530 ℃, reduces by 50~60 ℃ of homogenizing treatment temps, significantly reduces the thermal treatment energy expenditure;
(3) realize that extrusion speed improves about 50% (originally extrusion speed 8-10m/min); Realize that T5 attitude section bar tensile strength is higher than more than 25% of 6063 aluminium alloy standard GB, 5237.1 T6 attitude prescribed values, corresponding yield strength is higher than 18%, and correspondingly unit elongation is higher than more than 100%; Three mechanical properties that are higher than standard GB 5237.1 T5 attitudes regulations respectively, tensile strength, yield strength and unit elongation data 60%, 90%, more than 100%.
Embodiment
Below embodiments of the invention are further described:
(1) design of alloy and control
Design of 6063 al alloy components and control, its composition (weight percentage):
Mg:0.50%~0.60%;
Si:0.35%~0.45%;
Fe≤0.35%;
Surplus is Al.
In above-mentioned 6063 aluminium alloys, add rare earth, strontium, Zirconium-micro-alloyed element, its composition (weight percentage):
RE:0.04%~0.1%;
Sr:0.01%~0.05%;
Zr:0.015~0.05%;
It adds overall control at RE+Sr+Zr:0.065%~0.2%.
(2) material manufacturing and technology
(1) makes or order and prepare: AL-RE, AL-Sr and AL-Zr master alloy.Other impurity element limits the GB/T8735 standard of pressing in the master alloy, as making or order ALSr
10, ALRE
10, ALZr
4Deng master alloy;
(2) add sequential: be in the big smelting furnace of industrialization (25 tons), 6063 aluminium alloy furnace charges are added in order and melt, adjust furnace temperature according to ordinary method, melt body degasification, removal of impurities and purifying treatment after, the adding master alloy;
(3) add temperature design: temperature is controlled between 720 ℃~760 ℃ when adding master alloy, and soaking time is 30~50min.
(4) the induction stirring homogenization of composition is handled: with three kinds of master alloys, calculate add-on by the said components design relation.RE, Sr, Zr melting loss of elements amount are pressed 20wt%, 5wt% respectively, 5wt% calculates, together from the charging bole input.Open the furnace bottom electromagnetic mixing apparatus simultaneously and stir, the control liquid level is stable to flowing with function composite by electromagnetic stirring generation liquid levelling during stirring, can watch from a height or a distance the liquid level situation from vision slit or charging opening.Stirring is 30~50min with soaking time.Soaking time is taken a sample from stove after arriving, and carries out the quick composition analysis in stokehold, and whether detect alloying constituent qualified? in design mix, all are qualified for the rare earth composite modified additive, prepare cast, need add adjustment as off analysis;
(5) teeming temperature is controlled at 720 ℃~740 ℃, and casting temp is controlled at 700~710 ℃, and same level semicontinuous casting diameter is the ingot blank of 110mm;
(6) homogenizing thermal treatment and quick cooling process.The homogenizing thermal treatment process, 520 ℃ of-530 ℃ * 4-6h; The quick cooling process technology of coming out of the stove after homogenizing is handled adopts forced air cooling earlier, sprays cold-water quench then, reduces to room temperature;
(7) ingot blank rapid heating, extrusion processing and press quenching technology before the extruding.Ingot blank rapid heating technology before the extruding adopts electromagnetic induction heating technology, and Heating temperature is 470 ℃-500 ℃, and be 50-55min heat-up time; Extrusion process, extrusion billet temperature in are controlled at 460 ℃~490 ℃, and temperature out is controlled about 510 ℃~530 ℃, and the extruding wall thickness is a 1.2mm square hollow section bar, adopt 1100 tons of horizontal extruder extruding, and extrusion speed is controlled at 15m/min.Press quenching technology adopts air, and wind speed 〉=5m/s cools to behind the 50s below 200 ℃;
(8) T5 attitude aging treatment process is 190~205 ℃ * 2h, the Sweet natural gas heating.
Embodiment 1
Adopt high strength of the present invention, high-ductility rare earth aluminum alloy material and preparation method thereof, the high strength of manufacturing, high-ductility rare earth aluminum alloy material alloy ingot blank chemical ingredients:
Mg:0.58wt%,Si:0.404wt%,Fe:0.16wt%;
RE:0.071wt%,Sr:0.017wt%;Zr:0.018wt%。
Ingot blank (ingot blank diameter 110mm) tissue reaches nearly 1 grade of grain fineness number;
The homogenizing treatment process is 520 ℃ * 6h;
Extruded section velocity of discharge (wall thickness is 1.2mm) is 15m/min;
T5 attitude section bar mechanical property sees Table 1.
Table 1 6063 aluminium alloy extrusions mechanical properties
| Sample | Tensile strength Rm/MPa | Yield strength R 0.2p/MPa | Elongation after fracture A/% |
| 1 | 260 | 220 | 14.0 |
| 2 | 255 | 205 | 17.5 |
| 3 | 260 | 215 | 18.0 |
Embodiment 2
Adopt high strength of the present invention, high-ductility rare earth aluminum alloy material and preparation method thereof, the high strength of manufacturing, high-ductility rare earth aluminum alloy material ingot blank and section bar have following characteristics:
Alloy ingot blank chemical ingredients: Mg:0.51wt%, Si:0.398wt%, Fe:0.32wt%; RE:0.052wt%, Sr:0.023wt%; Zr:0.044wt%;
Ingot blank (ingot blank diameter 110mm) tissue reaches nearly 1 grade of grain fineness number;
The homogenizing treatment process is 520 ℃ * 6h;
Extruded section velocity of discharge (wall thickness is 1.2mm) is 15m/min;
T5 attitude section bar mechanical property sees Table 2.
Table 2 6063 aluminium alloy extrusions mechanical properties
| Sample | Tensile strength Rm/MPa | Yield strength R 0.2p/MPa | Elongation after fracture A/% |
| 1 | 255 | 220 | 18.5 |
| 2 | 250 | 225 | 16.5 |
| 3 | 260 | 220 | 15.0 |
The rare earth composite additive that adds among the present invention also may be used on improving the performance of like product in aluminium-silicon-magnesium based material.
Claims (2)
1. high strength, high-ductility rare earth aluminum alloy material, it is characterized in that: be made up of Mg, Si, Fe, rare earth composite additive and Al, each component percentage ratio by weight is as follows:
Mg:0.50%~0.60%; Si:0.35%~0.45%; Fe≤0.35%; The rare earth composite additive is made up of RE, Sr, Zr, and its component is percentage ratio by weight: RE:0.04%~0.1%; Sr:0.01%~0.05%; Zr.0.015~0.05%; The RE+Sr+Zr overall control exists: 0.065%~0.2%, and surplus is Al; Rare earth RE is based on Ce, content 85~90%; La is auxilliary, content 10~15%.
2. the preparation method of an a kind of high strength as claimed in claim 1, high-ductility rare earth aluminum alloy material is characterized in that:
(1) prepare: the adding of rare earth composite additive is the method that adopts master alloy, promptly is ready to AL-RE, AL-Sr and AL-Zr master alloy;
(2) the adding sequential of master alloy: be in the industrialization smelting furnace, 6063 aluminium alloy furnace charges added and fusing, adjust furnace temperature, melt body degasification, removal of impurities and purifying treatment after, add three kinds of master alloys;
(3) temperature design of adding master alloy: master alloy adds temperature and is controlled between 720 ℃~760 ℃, insulation 30min~7h;
(4) the induction stirring composition processing that homogenizes: with three kinds of master alloys, design of components relation by RE, Sr, Zr in the high strength of the invention described above, the high-ductility rare earth aluminum alloy material is calculated add-on, together from the charging bole input, open the furnace bottom electromagnetic mixing apparatus simultaneously and stir, stirring is 30~50min with soaking time, and the longest soaking time of Special Circumstances should not surpass 7h, after soaking time arrives, from stove, take a sample, carry out the quick composition analysis in stokehold, prepare cast;
(5) teeming temperature is controlled at 720 ℃~740 ℃, and casting temp is controlled at 700 ℃~710 ℃, adopts the hot top semicontinuous casting of same level technology;
(6) quick cooling process after homogenizing thermal treatment and the homogenizing, homogenizing thermal treatment process, 520 ℃ of-530 ℃ * 4-6h; The quick cooling process technology of coming out of the stove after homogenizing is handled, speed of cooling should be controlled at more than 150 ℃, according to the cooling power of quenchant, can adopt forced air cooling, hot water to quench or single cooling of cold-water quench or recombining process cooling;
(7) ingot blank rapid heating, extrusion processing and press quenching technology before the extruding, ingot blank rapid heating technology before the extruding adopts electromagnetic induction heating technology, and Heating temperature is 470 ℃-500 ℃, and be 50-70min heat-up time; Extrusion process, extrusion billet temperature in are controlled at 460 ℃~490 ℃, and temperature out is controlled about 510 ℃~530 ℃, and extrusion speed is controlled at 12m/min-15m/min, press quenching technology, thin-wall section, air, wind speed 〉=5m/s, big air quantity cooling, speed of cooling will reach 300 ℃/min; The heavy wall section bar, spray quenching, speed of cooling will reach 300 ℃/min-500 ℃/min;
(8) T5 attitude aging treatment process is 190~205 ℃ * 2h, the Sweet natural gas heating.
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| CN2009100054710A CN101509088B (en) | 2008-11-14 | 2009-01-16 | High-strength, high-ductility rare earth aluminum alloy material and method of producing the same |
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| CN200810174298 | 2008-11-14 | ||
| CN2009100054710A CN101509088B (en) | 2008-11-14 | 2009-01-16 | High-strength, high-ductility rare earth aluminum alloy material and method of producing the same |
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